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denoland-deno/cli/graph_util.rs
Matt Mastracci d23579fe6d feat(core): initialize SQLite off-main-thread (#18401)
This gets SQLite off the flamegraph and reduces initialization time by
somewhere between 0.2ms and 0.5ms. In addition, I took the opportunity
to move all the cache management code to a single place and reduce
duplication. While the PR has a net gain of lines, much of that is just
being a bit more deliberate with how we're recovering from errors.

The existing caches had various policies for dealing with cache
corruption, so I've unified them and tried to isolate the decisions we
make for recovery in a single place (see `open_connection` in
`CacheDB`). The policy I chose was:

 1. Retry twice to open on-disk caches
 2. If that fails, try to delete the file and recreate it on-disk
3. If we fail to delete the file or re-create a new cache, use a
fallback strategy that can be chosen per-cache: InMemory (temporary
cache for the process run), BlackHole (ignore writes, return empty
reads), or Error (fail on every operation).

The caches all use the same general code now, and share the cache
failure recovery policy.

In addition, it cleans up a TODO in the `NodeAnalysisCache`.
2023-03-31 11:43:19 -06:00

475 lines
14 KiB
Rust

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
use crate::args::CliOptions;
use crate::args::Lockfile;
use crate::args::TsConfigType;
use crate::args::TsTypeLib;
use crate::args::TypeCheckMode;
use crate::cache;
use crate::cache::TypeCheckCache;
use crate::colors;
use crate::errors::get_error_class_name;
use crate::npm::NpmPackageResolver;
use crate::proc_state::ProcState;
use crate::resolver::CliGraphResolver;
use crate::tools::check;
use deno_core::anyhow::bail;
use deno_core::error::custom_error;
use deno_core::error::AnyError;
use deno_core::parking_lot::RwLock;
use deno_core::ModuleSpecifier;
use deno_core::TaskQueue;
use deno_core::TaskQueuePermit;
use deno_graph::Module;
use deno_graph::ModuleError;
use deno_graph::ModuleGraph;
use deno_graph::ModuleGraphError;
use deno_graph::ResolutionError;
use deno_graph::SpecifierError;
use deno_runtime::permissions::PermissionsContainer;
use import_map::ImportMapError;
use std::collections::HashMap;
use std::collections::HashSet;
use std::sync::Arc;
#[derive(Clone, Copy)]
pub struct GraphValidOptions {
pub check_js: bool,
pub follow_type_only: bool,
pub is_vendoring: bool,
}
/// Check if `roots` and their deps are available. Returns `Ok(())` if
/// so. Returns `Err(_)` if there is a known module graph or resolution
/// error statically reachable from `roots` and not a dynamic import.
pub fn graph_valid_with_cli_options(
graph: &ModuleGraph,
roots: &[ModuleSpecifier],
options: &CliOptions,
) -> Result<(), AnyError> {
graph_valid(
graph,
roots,
GraphValidOptions {
is_vendoring: false,
follow_type_only: options.type_check_mode() != TypeCheckMode::None,
check_js: options.check_js(),
},
)
}
/// Check if `roots` and their deps are available. Returns `Ok(())` if
/// so. Returns `Err(_)` if there is a known module graph or resolution
/// error statically reachable from `roots`.
///
/// It is preferable to use this over using deno_graph's API directly
/// because it will have enhanced error message information specifically
/// for the CLI.
pub fn graph_valid(
graph: &ModuleGraph,
roots: &[ModuleSpecifier],
options: GraphValidOptions,
) -> Result<(), AnyError> {
let mut errors = graph
.walk(
roots,
deno_graph::WalkOptions {
check_js: options.check_js,
follow_type_only: options.follow_type_only,
follow_dynamic: options.is_vendoring,
},
)
.errors()
.flat_map(|error| {
let is_root = match &error {
ModuleGraphError::ResolutionError(_) => false,
ModuleGraphError::ModuleError(error) => {
roots.contains(error.specifier())
}
};
let mut message = if let ModuleGraphError::ResolutionError(err) = &error {
enhanced_resolution_error_message(err)
} else {
format!("{error}")
};
if let Some(range) = error.maybe_range() {
if !is_root && !range.specifier.as_str().contains("/$deno$eval") {
message.push_str(&format!(
"\n at {}:{}:{}",
colors::cyan(range.specifier.as_str()),
colors::yellow(&(range.start.line + 1).to_string()),
colors::yellow(&(range.start.character + 1).to_string())
));
}
}
if options.is_vendoring {
// warn about failing dynamic imports when vendoring, but don't fail completely
if matches!(
error,
ModuleGraphError::ModuleError(ModuleError::MissingDynamic(_, _))
) {
log::warn!("Ignoring: {:#}", message);
return None;
}
// ignore invalid downgrades and invalid local imports when vendoring
if let ModuleGraphError::ResolutionError(err) = &error {
if matches!(
err,
ResolutionError::InvalidDowngrade { .. }
| ResolutionError::InvalidLocalImport { .. }
) {
return None;
}
}
}
Some(custom_error(get_error_class_name(&error.into()), message))
});
if let Some(error) = errors.next() {
Err(error)
} else {
Ok(())
}
}
/// Checks the lockfile against the graph and and exits on errors.
pub fn graph_lock_or_exit(graph: &ModuleGraph, lockfile: &mut Lockfile) {
for module in graph.modules() {
let source = match module {
Module::Esm(module) => &module.source,
Module::Json(module) => &module.source,
Module::Node(_) | Module::Npm(_) | Module::External(_) => continue,
};
if !lockfile.check_or_insert_remote(module.specifier().as_str(), source) {
let err = format!(
concat!(
"The source code is invalid, as it does not match the expected hash in the lock file.\n",
" Specifier: {}\n",
" Lock file: {}",
),
module.specifier(),
lockfile.filename.display(),
);
log::error!("{} {}", colors::red("error:"), err);
std::process::exit(10);
}
}
}
pub async fn create_graph_and_maybe_check(
roots: Vec<ModuleSpecifier>,
ps: &ProcState,
) -> Result<Arc<deno_graph::ModuleGraph>, AnyError> {
let mut cache = cache::FetchCacher::new(
ps.emit_cache.clone(),
ps.file_fetcher.clone(),
ps.options.resolve_file_header_overrides(),
PermissionsContainer::allow_all(),
PermissionsContainer::allow_all(),
ps.options.node_modules_dir_specifier(),
);
let maybe_imports = ps.options.to_maybe_imports()?;
let cli_resolver = CliGraphResolver::new(
ps.options.to_maybe_jsx_import_source_config(),
ps.maybe_import_map.clone(),
ps.options.no_npm(),
ps.npm_api.clone(),
ps.npm_resolution.clone(),
ps.package_json_deps_installer.clone(),
);
let graph_resolver = cli_resolver.as_graph_resolver();
let graph_npm_resolver = cli_resolver.as_graph_npm_resolver();
let analyzer = ps.parsed_source_cache.as_analyzer();
let mut graph = ModuleGraph::default();
build_graph_with_npm_resolution(
&mut graph,
&ps.npm_resolver,
roots,
&mut cache,
deno_graph::BuildOptions {
is_dynamic: false,
imports: maybe_imports,
resolver: Some(graph_resolver),
npm_resolver: Some(graph_npm_resolver),
module_analyzer: Some(&*analyzer),
reporter: None,
},
)
.await?;
graph_valid_with_cli_options(&graph, &graph.roots, &ps.options)?;
let graph = Arc::new(graph);
if let Some(lockfile) = &ps.lockfile {
graph_lock_or_exit(&graph, &mut lockfile.lock());
}
if ps.options.type_check_mode() != TypeCheckMode::None {
// node built-in specifiers use the @types/node package to determine
// types, so inject that now after the lockfile has been written
if graph.has_node_specifier {
ps.npm_resolver
.inject_synthetic_types_node_package()
.await?;
}
let ts_config_result =
ps.options.resolve_ts_config_for_emit(TsConfigType::Check {
lib: ps.options.ts_type_lib_window(),
})?;
if let Some(ignored_options) = ts_config_result.maybe_ignored_options {
log::warn!("{}", ignored_options);
}
let maybe_config_specifier = ps.options.maybe_config_file_specifier();
let cache = TypeCheckCache::new(ps.caches.type_checking_cache_db(&ps.dir));
let check_result = check::check(
graph.clone(),
&cache,
&ps.npm_resolver,
check::CheckOptions {
type_check_mode: ps.options.type_check_mode(),
debug: ps.options.log_level() == Some(log::Level::Debug),
maybe_config_specifier,
ts_config: ts_config_result.ts_config,
log_checks: true,
reload: ps.options.reload_flag(),
},
)?;
log::debug!("{}", check_result.stats);
if !check_result.diagnostics.is_empty() {
return Err(check_result.diagnostics.into());
}
}
Ok(graph)
}
pub async fn build_graph_with_npm_resolution<'a>(
graph: &mut ModuleGraph,
npm_resolver: &NpmPackageResolver,
roots: Vec<ModuleSpecifier>,
loader: &mut dyn deno_graph::source::Loader,
options: deno_graph::BuildOptions<'a>,
) -> Result<(), AnyError> {
graph.build(roots, loader, options).await;
// resolve the dependencies of any pending dependencies
// that were inserted by building the graph
npm_resolver.resolve_pending().await?;
Ok(())
}
pub fn error_for_any_npm_specifier(
graph: &ModuleGraph,
) -> Result<(), AnyError> {
for module in graph.modules() {
match module {
Module::Npm(module) => {
bail!("npm specifiers have not yet been implemented for this sub command (https://github.com/denoland/deno/issues/15960). Found: {}", module.specifier)
}
Module::Node(module) => {
bail!("Node specifiers have not yet been implemented for this sub command (https://github.com/denoland/deno/issues/15960). Found: node:{}", module.module_name)
}
Module::Esm(_) | Module::Json(_) | Module::External(_) => {}
}
}
Ok(())
}
/// Adds more explanatory information to a resolution error.
pub fn enhanced_resolution_error_message(error: &ResolutionError) -> String {
let mut message = format!("{error}");
if let Some(specifier) = get_resolution_error_bare_node_specifier(error) {
message.push_str(&format!(
"\nIf you want to use a built-in Node module, add a \"node:\" prefix (ex. \"node:{specifier}\")."
));
}
message
}
pub fn get_resolution_error_bare_node_specifier(
error: &ResolutionError,
) -> Option<&str> {
get_resolution_error_bare_specifier(error).filter(|specifier| {
crate::node::resolve_builtin_node_module(specifier).is_ok()
})
}
fn get_resolution_error_bare_specifier(
error: &ResolutionError,
) -> Option<&str> {
if let ResolutionError::InvalidSpecifier {
error: SpecifierError::ImportPrefixMissing(specifier, _),
..
} = error
{
Some(specifier.as_str())
} else if let ResolutionError::ResolverError { error, .. } = error {
if let Some(ImportMapError::UnmappedBareSpecifier(specifier, _)) =
error.downcast_ref::<ImportMapError>()
{
Some(specifier.as_str())
} else {
None
}
} else {
None
}
}
#[derive(Default, Debug)]
struct GraphData {
graph: Arc<ModuleGraph>,
checked_libs: HashMap<TsTypeLib, HashSet<ModuleSpecifier>>,
}
/// Holds the `ModuleGraph` and what parts of it are type checked.
#[derive(Clone, Default)]
pub struct ModuleGraphContainer {
// Allow only one request to update the graph data at a time,
// but allow other requests to read from it at any time even
// while another request is updating the data.
update_queue: Arc<TaskQueue>,
graph_data: Arc<RwLock<GraphData>>,
}
impl ModuleGraphContainer {
/// Acquires a permit to modify the module graph without other code
/// having the chance to modify it. In the meantime, other code may
/// still read from the existing module graph.
pub async fn acquire_update_permit(&self) -> ModuleGraphUpdatePermit {
let permit = self.update_queue.acquire().await;
ModuleGraphUpdatePermit {
permit,
graph_data: self.graph_data.clone(),
graph: (*self.graph_data.read().graph).clone(),
}
}
pub fn graph(&self) -> Arc<ModuleGraph> {
self.graph_data.read().graph.clone()
}
/// Mark `roots` and all of their dependencies as type checked under `lib`.
/// Assumes that all of those modules are known.
pub fn set_type_checked(&self, roots: &[ModuleSpecifier], lib: TsTypeLib) {
// It's ok to analyze and update this while the module graph itself is
// being updated in a permit because the module graph update is always
// additive and this will be a subset of the original graph
let graph = self.graph();
let entries = graph.walk(
roots,
deno_graph::WalkOptions {
check_js: true,
follow_dynamic: true,
follow_type_only: true,
},
);
// now update
let mut data = self.graph_data.write();
let checked_lib_set = data.checked_libs.entry(lib).or_default();
for (specifier, _) in entries {
checked_lib_set.insert(specifier.clone());
}
}
/// Check if `roots` are all marked as type checked under `lib`.
pub fn is_type_checked(
&self,
roots: &[ModuleSpecifier],
lib: TsTypeLib,
) -> bool {
let data = self.graph_data.read();
match data.checked_libs.get(&lib) {
Some(checked_lib_set) => roots.iter().all(|r| {
let found = data.graph.resolve(r);
checked_lib_set.contains(&found)
}),
None => false,
}
}
}
/// A permit for updating the module graph. When complete and
/// everything looks fine, calling `.commit()` will store the
/// new graph in the ModuleGraphContainer.
pub struct ModuleGraphUpdatePermit<'a> {
permit: TaskQueuePermit<'a>,
graph_data: Arc<RwLock<GraphData>>,
graph: ModuleGraph,
}
impl<'a> ModuleGraphUpdatePermit<'a> {
/// Gets the module graph for mutation.
pub fn graph_mut(&mut self) -> &mut ModuleGraph {
&mut self.graph
}
/// Saves the mutated module graph in the container
/// and returns an Arc to the new module graph.
pub fn commit(self) -> Arc<ModuleGraph> {
let graph = Arc::new(self.graph);
self.graph_data.write().graph = graph.clone();
drop(self.permit); // explicit drop for clarity
graph
}
}
#[cfg(test)]
mod test {
use std::sync::Arc;
use deno_ast::ModuleSpecifier;
use deno_graph::Position;
use deno_graph::Range;
use deno_graph::ResolutionError;
use deno_graph::SpecifierError;
use crate::graph_util::get_resolution_error_bare_node_specifier;
#[test]
fn import_map_node_resolution_error() {
let cases = vec![("fs", Some("fs")), ("other", None)];
for (input, output) in cases {
let import_map = import_map::ImportMap::new(
ModuleSpecifier::parse("file:///deno.json").unwrap(),
);
let specifier = ModuleSpecifier::parse("file:///file.ts").unwrap();
let err = import_map.resolve(input, &specifier).err().unwrap();
let err = ResolutionError::ResolverError {
error: Arc::new(err.into()),
specifier: input.to_string(),
range: Range {
specifier,
start: Position::zeroed(),
end: Position::zeroed(),
},
};
assert_eq!(get_resolution_error_bare_node_specifier(&err), output);
}
}
#[test]
fn bare_specifier_node_resolution_error() {
let cases = vec![("process", Some("process")), ("other", None)];
for (input, output) in cases {
let specifier = ModuleSpecifier::parse("file:///file.ts").unwrap();
let err = ResolutionError::InvalidSpecifier {
range: Range {
specifier,
start: Position::zeroed(),
end: Position::zeroed(),
},
error: SpecifierError::ImportPrefixMissing(input.to_string(), None),
};
assert_eq!(get_resolution_error_bare_node_specifier(&err), output,);
}
}
}